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  3. Formalized Mathematics
  4. Formalized Mathematics, 2020, Volume 28, Issue 3

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    • Proszę używać tego identyfikatora do cytowań lub wstaw link do tej pozycji: http://hdl.handle.net/11320/10843
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    Pole DCWartośćJęzyk
    dc.contributor.authorSchwarzweller, Christoph-
    dc.date.accessioned2021-05-05T07:02:03Z-
    dc.date.available2021-05-05T07:02:03Z-
    dc.date.issued2020-
    dc.identifier.citationFormalized Mathematics, Volume 28, Issue 3, Pages 251-261pl
    dc.identifier.issn1426-2630-
    dc.identifier.urihttp://hdl.handle.net/11320/10843-
    dc.description.abstractIn [6], [7] we presented a formalization of Kronecker’s construction of a field extension of a field F in which a given polynomial p ∈ F [X]\F has a root [4], [5], [3]. As a consequence for every field F and every polynomial there exists a field extension E of F in which p splits into linear factors. It is well-known that one gets the smallest such field extension – the splitting field of p – by adjoining the roots of p to F. In this article we start the Mizar formalization [1], [2] towards splitting fields: we define ring and field adjunctions, algebraic elements and minimal polynomials and prove a number of facts necessary to develop the theory of splitting fields, in particular that for an algebraic element a over F a basis of the vector space F (a) over F is given by a0, . . ., an−1, where n is the degree of the minimal polynomial of a over F .pl
    dc.language.isoenpl
    dc.publisherDeGruyter Openpl
    dc.rightsAttribution-ShareAlike 3.0 Unported (CC BY-SA 3.0)-
    dc.rights.urihttps://creativecommons.org/licenses/by-sa/3.0/-
    dc.subjectring and field adjunctionspl
    dc.subjectalgebraic elements and minimal polynomialspl
    dc.titleRing and Field Adjunctions, Algebraic Elements and Minimal Polynomialspl
    dc.typeArticlepl
    dc.rights.holder© 2020 University of Białymstoku;-
    dc.rights.holderCC-BY-SA License ver. 3.0 or later;-
    dc.identifier.doi10.2478/forma-2020-0022-
    dc.description.AffiliationInstitute of Informatics, University of Gdansk, Polandpl
    dc.description.referencesGrzegorz Bancerek, Czesław Byliński, Adam Grabowski, Artur Korniłowicz, Roman Matuszewski, Adam Naumowicz, Karol Pąk, and Josef Urban. Mizar: State-of-the-art and beyond. In Manfred Kerber, Jacques Carette, Cezary Kaliszyk, Florian Rabe, and Volker Sorge, editors, Intelligent Computer Mathematics, volume 9150 of Lecture Notes in Computer Science, pages 261–279. Springer International Publishing, 2015. ISBN 978-3-319-20614-1. doi:10.1007/978-3-319-20615-8_17.pl
    dc.description.referencesGrzegorz Bancerek, Czesław Byliński, Adam Grabowski, Artur Korniłowicz, Roman Matuszewski, Adam Naumowicz, and Karol Pąk. The role of the Mizar Mathematical Library for interactive proof development in Mizar. Journal of Automated Reasoning, 61(1):9–32, 2018. doi:10.1007/s10817-017-9440-6.pl
    dc.description.referencesNathan Jacobson. Basic Algebra I. Dover Books on Mathematics, 1985.pl
    dc.description.referencesHeinz Lüneburg. Gruppen, Ringe, Körper: Die grundlegenden Strukturen der Algebra. Oldenbourg Verlag, 1999.pl
    dc.description.referencesKnut Radbruch. Algebra I. Lecture Notes, University of Kaiserslautern, Germany, 1991.pl
    dc.description.referencesChristoph Schwarzweller. Renamings and a condition-free formalization of Kronecker’s construction. Formalized Mathematics, 28(2):129–135, 2020. doi:10.2478/forma-2020-0012.pl
    dc.description.referencesChristoph Schwarzweller. Representation matters: An unexpected property of polynomial rings and its consequences for formalizing abstract field theory. In M. Ganzha, L. Maciaszek, and M. Paprzycki, editors, Proceedings of the 2018 Federated Conference on Computer Science and Information Systems, volume 15 of Annals of Computer Science and Information Systems, pages 67–72. IEEE, 2018. doi:10.15439/2018F88.pl
    dc.description.referencesYasushige Watase. Algebraic numbers. Formalized Mathematics, 24(4):291–299, 2016. doi:10.1515/forma-2016-0025.pl
    dc.identifier.eissn1898-9934-
    dc.description.volume28pl
    dc.description.issue3pl
    dc.description.firstpage251pl
    dc.description.lastpage261pl
    dc.identifier.citation2Formalized Mathematicspl
    dc.identifier.orcid0000-0001-9587-8737-
    Występuje w kolekcji(ach):Formalized Mathematics, 2020, Volume 28, Issue 3

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